Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Reiser, J. T.*; Neeway, J. J.*; Cooley, S. K.*; Parruzot, B.*; Heredia-Langner, A.*; Gin, S.*; Thomas, M.*; Smith, N. J.*; Icenhower, J. P.*; Stone-Weiss, N.*; et al.
International Journal of Applied Glass Science, 16(4), p.e16707_1 - e16707_16, 2025/10
被引用回数:0 パーセンタイル:0.00(Materials Science, Ceramics)A new technique, termed the stirred-reactor coupon analysis (SRCA) method, has been developed to measure the rate of glass dissolution in forward-rate conditions. Monolithic glass coupons are partially masked with an inert material before placement in a large volume of well-mixed solution with known chemistry and temperature for a predetermined duration. After the test, the mask is removed, and the difference in step height between the protected area and the exposed corroded portions of the sample coupon is measured to determine the extent of glass dissolution. The step height is converted to a rate measurement using the test duration and glass density. Test parameters such as sample surface preparation and test duration were evaluated to determine their effects on the measured rates. Additionally, results from an interlaboratory study (ILS) consisting of 12 laboratories from 11 different institutions are presented, where each laboratory performed 12 independent tests. When removing experimental outlier data, the 95% reproducibility limits for the SRCA method has no statistical difference with previously published standardized test methods used to determine the forward rate of glass dissolution. Overall, this paper describes steps necessary to perform the test method and provides the statistical calculations to evaluate test accuracy.
Polevoi, A. R.*; Loarte, A.*; 林 伸彦; Kim, H. S.*; Kim, S. H.*; Koechl, F.*; Kukushkin, A. S.*; Leonov, V. M.*; Medvedev, S. Yu.*; 村上 匡且*; et al.
Nuclear Fusion, 55(6), p.063019_1 - 063019_8, 2015/06
被引用回数:46 パーセンタイル:88.63(Physics, Fluids & Plasmas)The operational space (
-
) for long pulse scenarios of ITER was assessed by 1.5D core transport modelling with pedestal parameters predicted by the EPED1 code. The analyses include the majority of transport models presently used for interpretation of experiments and ITER predictions. The EPED1 code was modified to take into account boundary conditions predicted by SOLPS for ITER. In contrast with standard EPED1 assumptions, EPED1 with the SOLPS boundary conditions predicts no degradation of the pedestal pressure as density is reduced. Lowering the plasma density to 
5-6 
10
m
leads to an increased plasma temperature (similar pedestal pressure), which reduces the loop voltage and increases the duration of the burn phase to 
1000 s with Q 
5 for 
13 MA at moderate normalised pressure (
2). These ITER plasmas require the same level of additional heating power as the reference Q = 10 inductive scenario at 15 MA. However, unlike the "hybrid" scenarios considered previously, these H-mode plasmas do not require specially shaped q profiles nor improved confinement in the core for the transport models considered in this study. Thus, these medium density H-mode plasma scenarios with 13 MA present an attractive alternative to hybrid scenarios to achieve ITER's long pulse Q 5 and deserve further analysis and experimental demonstration in present tokamaks.
Polevoi, A. R.*; 林 伸彦; Kim, H. S.*; Kim, S. H.*; Koechl, F.*; Kukushkin, A. S.*; Leonov, V. M.*; Loarte, A.*; Medvedev, S. Yu.*; 村上 匡且*; et al.
Europhysics Conference Abstracts (Internet), 37D, p.P2.135_1 - P2.135_4, 2013/07
Long-pulse operation 
1000 s with 
5 is foreseen in ITER to demonstrate high neutron fluence scenarios which can be of use for the nuclear technology and for the TBM. In this study we address the viability of achieving ITER's long-pulse scenario in plasma regimes with H-mode confinement level by characterizing the current-density operational space and the achievable Q with long pulse burning phases. The EPED1 model with boundary conditions from SOLPS predicts no degradation of pedestal pressure with decreasing density in ITER. Modelling of core transport with 1.5D transport models carried out with pedestal parameters predicted by EPED1+SOLPS indicate that there is a large operational space for long pulse plasma operation with high fusion gain 5. Reducing the plasma density to 5-6 10m leads to an increased plasma temperature (similar pedestal pressure) which reduces the loop voltage and increases the duration of the burn phase to 1000 s with 5 for 13 MA at moderate normalised pressure, 2. Unlike the "hybrid" scenarios, these H-mode plasmas do not require specially shaped q profiles nor improved confinement in the core for the majority of the transport models considered in this study. Thus, these medium density H-mode plasma scenarios present an attractive alternative to hybrid scenarios to achieve ITER's long pulse.
村上 和功*; Park, J. M.*; Giruzzi, G.*; Garcia, J.*; Bonoli, P.*; Budny, R. V.*; Doyle, E. J.*; 福山 淳*; 林 伸彦; 本多 充; et al.
Proceedings of 23rd IAEA Fusion Energy Conference (FEC 2010) (CD-ROM), 8 Pages, 2011/03
Recent progress on ITER steady-state scenario modeling by the ITPA-IOS group is reviewed. Code-to-code benchmarks as the IOS group's common activities for the two steady-state scenarios (weak shear scenario and internal transport barrier scenario) are reviewed. These are discussed in terms of transport and kinetic profiles, heating and CD sources using various transport codes.
鎌田 裕; Leonard, A. W.*; Bateman, G.*; Becoulet, M.*; Chang, C. S.*; Eich, T.*; Evans, T. E.*; Groebner, R. J.*; Guzdar, P. N.*; Horton, L. D.*; et al.
Proceedings of 21st IAEA Fusion Energy Conference (FEC 2006) (CD-ROM), 8 Pages, 2007/03
周辺ペデスタル研究の進展とITERへ向けた予測について、最近の世界の研究をレビューする。周辺ペデスタル構造を決めるパラメータリンケージを明らかにするとともに、プラズマ過程と原子分子過程の両方がペデスタル幅を決定すること,周辺圧力勾配がピーリングバルーニング理論で系統的に説明できること,計測機器の進展によってELMの発展が明らかとなり非線形理論で説明可能であること,小振幅ELMの系統的同定がすすんだことなど、大きな発展があった。これらに基づいて、ITERのプラズマ性能の予測,ELMの小規模化等の検討が大きく進んだ。
B
coulet, M.*; Huysmans, G.*; Sarazin, Y.*; Garbet, X.*; Ghendrih, P.*; Rimini, F.*; Joffrin, E.*; Litaudon, X.*; Monier-Garbet, P.*; An, J.-M.*; et al.
Plasma Physics and Controlled Fusion, 45(12A), p.A93 - A113, 2003/12
被引用回数:86 パーセンタイル:90.51(Physics, Fluids & Plasmas)炉心級のプラズマにおけるELMに関する実験的,理論的な研究の進展をレビューした論文である。最近の理論的なアプローチでは、線形MHD安定性解析だけでなく、ELMを含んだ非線形輸送モデルが提案されている。これらのモデルと高速なペデスタル圧力分布の崩壊,磁気揺動,スクレイプオフ層の輸送といった実験的観測との比較が行われた。現在得られているtype I ELMのスケーリングをITERに外挿するとダイバータ板への熱負荷が問題となる。近年、高三角度及び高密度領域において、高閉じ込めを維持したまま小さなELMが得られる領域が各装置で見つかっており、これら小振幅ELMの特徴とITERへの適用性に関して議論している。一方、内部輸送障壁とELMの両立性が幾つかの装置で問題になっているが、ELMの振幅を低減することで両立することが可能になった事例を報告している。さらに、周辺電流,ペレット入射,不純物入射,外部磁場摂動等を用いたELMの動的制御法の開発とITERへの適用性について議論している。
